Bibliographie

• Allison, S.J., Bailey, D.M., & Folland, J.P. (2008). Prolonged static stretching does not influence running economy despite changes in neuromuscular function. Journal of Sports Sciences, 26(14), 1489–1495.
• Arampatzis, A., Schade, F., Walsh, M., & Brüggemann, G.-P. (2001). Influence of leg stiffness and its effect on myodynamic jumping performance. Journal of Electromyography and Kinesiology, 11, 355–364.
• Babi?, V, ?oh, « M., & Dizdar, D. (2011). Differences in kinematic parameters of athletes of different running quality. Biology of Sport, 28(2), 115–121.
• Burgess-Limerick, R., Abernethy, B., & Neal, R.J. (1993). Relative phase quantifies interjoint coordination. Journal of Biomechanics, 26(1), 91–94.
• Byblow, W.D., Carson, R.G., & Goodman, D. (1994). Expressions of asymmetries and anchoring in bimanual coordination. Human Movement Science, 13, 3–28.
• Chollet, D., Seifert, L.M., & Carter, M. (2008). Arm coordination in elite backstroke swimmers. Journal of Sports Sciences, 26(7), 675–682.
• Chumanov, E.S., Wille, C.M., Michalski, M.P., & Heiderscheit, B.C. (2012). Changes in muscle activation patterns when running step rate is increased. Gait & Posture, 36 (2), 231–235.
• Clark, J.E., & Phillips, S.J. (1993). A longitudinal study of intralimb coordination in the first year of independent walking: a dynamical systems analysis. Child Development, 64 (4), 1143–1157.
• De Leo, A.T., Dierks, T.A., Ferber, R., & Davis, I.S. (2004). Lower extremity joint coupling during running: a current update. Clinical Biomechanics, 19(10), 983–991.
• Dedieu, P., & Zanone, P.G. (2012). Effects of gait pattern and arm swing on intergirdle coordination. Human Movement Science, 31, 660–671.
• Delignières, D., Nourrit, D., Sioud, R., Leroyer, P., Zattara, M., & Micaleff, J.-P. (1998). Preferred coordination modes in the first steps of the learning of a complex gymnastics skill. Human Movement Science, 17, 221–241.
• Diedrich, F.J., & Warren Jr, W.H. (1995). Why change gaits? Dynamics of the walk-run transition. Journal of Experimental Psychology: Human Perception and Performance, 21 (1), 183–202.
• Dierks, T.A., & Davis, I. (2007). Discrete and continuous joint coupling relationships in uninjured recreational runners. Clinical Biomechanics, 22(5), 581–591.
• Gage, J.R., & Schwartz, M.H. (2009). Normal gait. In J.R. Gage, M.H. Schwartz, S.E. Koop & T.F. Novacheck (Eds.), The identification and treatment of gait problems in cerebral palsy (pp. 31–64). London: Mac Keith Press.
• Gittoes, M.J.R., & Wilson, C. (2010). Intralimb joint coordination patterns of the lower extremity in maximal velocity phase sprint running. Journal of Applied Biomechanics, 2, 188–195.
• Günther, M., & Blickhan, R. (2002). Joint stifness of the ankle and the knee in running. Journal of Biomechanics, 35, 1459–1474.
• Hamill, J., van Emmerick, R.E.A., Heiderscheit, B.C., & Li, L. (1999). A dynamical systems approach to lower extremity running injuries. Clinical Biomechanics, 14(5), 297–308.
• Hamner, S.R., Seth, A., & Delp, S.L. (2010). Muscle contributions to propulsion and support during running. Journal of Biomechanics, 43, 2709–2716.
• Hanon, C. (2005). Activité musculaire des membres inférieurs en course à pied sur le plat. STAPS, 68 (2), 111–124.
• Heiderscheit, B.C. (2000). Movement variability as a clinical measure for locomotion. Journal of Applied Biomechanics, 16, 419–427.
• Heiderscheit, B.C., Hamill, J., & van Emmerik, R.E.A. (2002). Variability of stride characteristics and joint coordination among individuals with unilateral patellofemoral pain. Journal of Applied Biomechanics, 18, 110–121.
• Higginson, B.K. (2009). Methods of running gait analysis. Current Sports Medicine Reports, 8(3), 136–141.
• Hobara, H., Inoue, K., Muraoka, T., Omuro, K., Sakamoto, M., & Kanosue, K. (2010). Leg stiffness adjustment for a range of hopping frequencies in humans. Journal of Biomechanics, 43, 506–511.
• Hreljac, A. (2004). Impact and overuse injuries in runners. Medicine and Science of Sports Exercise, 36(5), 845–849.
• Hreljac, A., Marshall, R.N., & Hume, P.A. (2000). Evaluation of lower extremity overuse injury potential in runners. Medicine & Science in Sports & Exercise, 32(9), 1635?1641.
• Hunter, J.P., Marshall, R.N., & McNair, P.J. (2004). Segmentinteraction analysis of the stance limb in sprint running. Journal of Biomechanics, 37, 1439–1446.
• Hunter, J.P., Marshall, R.N., & McNair, P.J. (2005). Relationships between ground reaction force impulse and kinematics of sprint-running acceleration. Journal of Applied Biomechanics, 21, 31–43.
• Jeka, J.J., Kelso, J.A.S., & Kiemel, T. (1993a). Pattern switching in human multilimb coordination dynamics. Bulletin of Mathematical Biology, 55(4), 829–845.
• Jeka, J.J., Kelso, J.A.S., & Kiemel, T. (1993b). Spontaneous transitions and symmetry: Pattern dynamics in human four-limb coordination. Human Movement Science, 12, 627–651.
• Kelso, J.A.S. (1981). On the oscillatory basis of movement. Bulletin of the Psychonomic Society, 18, 63.
• Kelso, J.A.S. (1984). Phase transitions and critical behavior in human bimanual coordination. American Journal of Physiology: Regulatory, Integrative, and Comparative Physiology, 15, R1000–R1004.
• Kelso, J.A.S. (1995). Dynamic patterns: the self-organization of brain and behavior. Cambridge (Ma): Massachussets Institute of Technology.
• Kelso, J.A.S., & Jeka, J.J. (1992). Symmetry breaking dynamics of human multilimb coordination. Journal of Experimental Psychology: Human Perception and Performance, 18 (3), 645–668.
• Krell, J.B., & Stefanyshyn, D.J. (2006). The relationship between extension of the metatarsophalangeal joint and sprint time for 100m Olympic athletes. Journal of Sports Sciences, 24, 175–180.
• Kurz, M.J., & Stergiou, N. (2002). Effect of normalization and phase angle calculations on continuous relative phase. Journal of Biomechanics, 35 (3), 369–374.
• Kyröläinen, H., Avela, J., & Komi, P.V. (2005). Changes in muscle activity with increasing running speed. Journal of Sports Sciences, 23(10), 1101–1109.
• Leblanc, H., Seifert, L., & Chollet, D. (2009). Arm–leg coordination in recreational and competitive breaststroke swimmers. Journal of Science and Medicine in Sport, 12, 352?356.
• Li, L., van den Bogert, E.C.H., Caldwell, G.E., van Emmerik, R.E.A., & Hamill, J. (1999). Coordination of walking and running at similar speed and stride frequency. Human Movement Science, 18, 67–85.
• McCollum, G., Holroyd, C., & Castelfranco, A.M. (1995). Forms of early walking. Journal of Theoretical Biology, 176 (3), 373–390.
• Moritz, C.T., & Farley, C.T. (2004). Passive dynamics change leg mechanics for an unexpected surface during hopping. Journal of Applied Physiology, 97, 1313–1322.
• Novacheck, T.F. (1998). The biomechanics of running. Gait & Posture, 7, 77–95.
• Pikovsky, A., Rosenblum, M., & Kurths, J. (2001). Synchronization: a universal concept in nonlinear sciences. Cambridge: Cambridge University Press.
• Sasaki, K., & Neptune, R.R. (2006). Differences in muscle function during walking and running at the same speed. Journal of Biomechanics, 39, 2005–2013.
• Scholz, J.P., & Kelso, J.A.S. (1989). A quantitative approach to understanding the formation and change of coordinated movement patterns. Journal of Motor Behavior, 21(2), 122–144.
• Scholz, J.P., & Kelso, J.A.S. (1990). Intentional switching between patterns of bimanual coordination depends on the intrinsic dynamics of the patterns. Journal of Motor Behavior, 22 (1), 98–124.
• Schöner, G., & Kelso, J.A.S. (1988). Dynamic pattern generation in behavioral and neural systems. Science, 239(4847), 1513–1520.
• Seay, J.F., Haddad, J.M., van Emmerik, R.E.A., & Hamill, J. (2006). Coordination variability around the walk to run transition during human locomotion. Motor Control, 10, 178–196.
• Simpson, K.J., & Bates, B.T. (1990). The effects of running speed on lower extremity joint moments generated during the support phase. International Journal of Sport Biomechanics, 6, 309–324.
• Stergiou, N., & Bates, B.T. (1997). The relationship between subtalar and knee joint function as a possible mechanism for running injuries. Gait & Posture, 6, 177–185.
• Temprado, J.-J., Della-Grasta, M., Farrell, M., & Laurent, M. (1997). A novice-expert comparison of (intra-limb) coordination subserving the volley-ball serve. Human Movement Science, 16 (5), 653–676.
• Thordarson, D.B. (1997). Running Biomechanics. Clinics in Sports Medicine, 16(2), 239–247.
• Vaal, J., Van Soest, A.J., & Hopkins, B. (1995). Modelling the early development of bipedal locomotion: A multidisciplinary approach. Human Movement Science, 14 (4–5), 609–636.
• Wagenaar, R.C., & van Emmerick, R.E.A. (1996). Dynamics of movement disorders. Human Movement Science, 15, 161–175.
• Wagenaar, R.C., & van Emmerik, R.E.A. (1994). Dynamics of pathological gait. Human Movement Science, 13, 441–471.
• Wall, J.C., & Charteris, J. (1980). The process of habituation to treadmill walking at different velocities. Ergonomics, 23 (5), 425–435.
• Wilson, C., Simpson, S.E., van Emmerik, R.E.A., & Hamill, J. (2008). Coordination variability and skill development in expert triple jumpers. Sports Biomechanics, 7(1), 2–9.
• Zanone, P.G. (1999). Une approche écologique-dynamique de la coordination. In J.-M. Albaret & R. Soppelsa (Eds.), Précis de rééducation de la motricité manuelle. Marseille : Solal.
• Zanone, P.G., & Kelso, J.A.S. (1992). Evolution of behavioral attractors with learning: nonequilibrium phase transitions. Journal of Experimental Psychology: Human Perception and Performance, 18 (2), 403–421.